<p>The DMP 343 Stainless Steel Sensor is a robust and reliable choice for professionals in the industrial and commercial sectors who demand precision and durability. With its sturdy stainless steel construction, this sensor is designed to withstand challenging environments while delivering accurate performance.</p><p>One of the key features of the DMP 343 is its output type, providing a 0-10 V signal. This makes it compatible with a wide range of control systems, ensuring seamless integration into existing setups. The sensor boasts an impressive accuracy level of greater than 100 mbar at 0.35% FSO (Full Scale Output), making it suitable for applications where precision is paramount.</p><p>Operating across a broad temperature range from -40 to 125 degrees Celsius, the DMP 343 can handle extreme conditions without compromising on performance. This versatility ensures that it remains functional in both hot and cold environments, making it ideal for various industrial applications.</p><p>In terms of compliance, this sensor adheres to several important standards including CE, cULus, IEC, REACH, and RoHS. These certifications attest to its safety, environmental responsibility, and quality manufacturing processes.</p><p>Durability is another strong suit of the DMP 343. It features exceptional shock resistance rated at 500 g/1 ms and an extensive mechanical life capable of enduring up to ten million operations. Such resilience ensures longevity even under demanding operational conditions.</p><p>The rated pressure capability stands at 250 mbar which fits well within numerous industrial requirements for pressure sensing tasks. Additionally, the mechanical connection utilizes G1/2 inch DIN 3852 threading coupled with FKM seal material—providing secure fittings that prevent leaks while maintaining chemical compatibility with various substances.</p><p>Overall, the DMP 343 Stainless Steel Sensor represents a dependable option for those needing precise measurements in harsh environments without sacrificing reliability or ease of integration into current systems.</p>